Disclosure of Invention
The invention mainly aims to provide an unattended intelligent power distribution room, and aims to solve the problem that the existing unattended power distribution room lacks the capability of coping with sudden rainstorm weather, so that rainwater is easy to invade the power distribution room, and power failure accidents are caused.
In order to achieve the purpose, the technical scheme provided by the invention is as follows:
an unattended intelligent power distribution room comprises a power distribution room main body, wherein the power distribution room comprises a side wall; the power distribution room further comprises a waterproof door and an access opening formed in the side wall;
the opening of the inlet and the outlet is rectangular, and a circle of sealing groove is formed on the outer surface of the side wall around the inlet and the outlet; a circle of sealing protrusion is arranged on the periphery of the inner surface of the waterproof door; the sealing protrusion and the sealing groove are nested and matched with each other when the waterproof door is closed;
the power distribution room main body comprises a top wall and a bottom wall; a partition plate parallel to the bottom wall is arranged in the power distribution room main body; all electrical equipment in the power distribution room main body is arranged on the partition board; the partition plate is provided with a plurality of water collecting holes;
the power distribution room further comprises a drainage assembly; the drainage assembly comprises a drainage pump, a drainage pipe and a drainage bent pipe; an interlayer space is formed between the partition plate and the bottom wall; the drainage pump is arranged in the interlayer space, and the water outlet end of the drainage pump is communicated with the drainage pipe; the drain pipe extends upwards and penetrates through the top wall in a sealing mode; the drain pipe positioned above the top wall is communicated with the drain bent pipe; the open end of the drainage bent pipe faces downwards.
Preferably, the sealing groove comprises a vertical sealing groove and a transverse sealing groove, wherein the vertical sealing groove is vertically arranged, and the transverse sealing groove is transversely arranged; the horizontal section of the notch of the vertical sealing groove is triangular; the vertical section of the notch of the transverse sealing groove is also triangular; the number of the notches of the vertical sealing grooves is at least 2, and the number of the notches of the transverse sealing grooves is at least 2;
the sealing protrusions comprise vertical sealing protrusions arranged vertically and transverse sealing protrusions arranged transversely; the vertical sealing protrusion comprises a vertical protrusion body and a vertical protrusion bottom; the transverse sealing protrusion comprises a transverse protrusion body and a transverse protrusion bottom;
the horizontal section of the vertical protrusion is triangular; the vertical section of the transverse protrusion is also triangular; the number of the vertical protrusions is set to be consistent with that of the notches of the vertical sealing grooves; the number of the transverse protrusions is set to be consistent with that of the notches of the transverse sealing grooves;
when the waterproof door is closed, the vertical protrusion is embedded into the notch of the vertical sealing groove, and the transverse protrusion is embedded into the notch of the transverse sealing groove.
Preferably, the vertically protruding bottom and the horizontally protruding bottom are fixed to the waterproof door by screws.
Preferably, the horizontal section of the notch of the vertical sealing groove is semicircular; the vertical section of the notch of the transverse sealing groove is semicircular; the horizontal section of the notch of the vertical sealing groove is semicircular; the vertical section of the notch of the transverse sealing groove is semicircular.
Preferably, the sealing protrusion is made of rubber.
Preferably, the power distribution room further comprises a plurality of fastening components; the fastening assembly comprises a rotating fastener and a rotating terminal; the rotary fastener comprises a rotary main rod and a rotary auxiliary rod; the rotating main rod is perpendicular to the rotating auxiliary rod; the tail end of the rotating auxiliary rod is provided with a spherical protrusion;
the plurality of rotating terminals are fixedly connected to the outer surface of the side wall close to the vertical edge of the access opening; the rotating fasteners and the rotating terminals are arranged in one-to-one correspondence; the rotating main rod of each rotating fastener is hinged with each corresponding rotating terminal;
the outer surface of the waterproof door is provided with a plurality of spherical grooves; the spherical protrusions and the spherical grooves are arranged in a one-to-one correspondence manner; when the rotating main rod rotates to be perpendicular to the side wall, the rotating auxiliary rod is attached to the outer surface of the waterproof door, and the spherical protrusions are embedded into the corresponding spherical grooves.
Preferably, the power distribution room further comprises an automatic door opening assembly; the automatic door opening assembly comprises a fixed box, a sliding terminal, a rotating rod, a connecting terminal and a hydraulic telescopic rod;
the fixing box is a cuboid with a hollow interior, and the bottom surface of the fixing box is open; the fixing box is fixedly connected to the inner surface of the side wall close to the top of the access opening;
the fixed box comprises a first wall, a second wall, a third wall and a fourth wall, wherein the first wall and the second wall are arranged oppositely, and the third wall and the fourth wall are arranged oppositely; the first wall and the second wall are both parallel to the side wall; a first sliding groove is horizontally formed in the inner wall of the first wall, and a second sliding groove is horizontally formed in the inner wall of the second wall;
the slide terminal includes 2 slide protrusions; 2 sliding protrusions are respectively fitted into the first sliding groove and the second sliding groove so that the sliding terminal can slide in an extending direction of the first sliding groove; the bottom of the sliding terminal extends out of the fixed box;
the connecting terminal is fixedly arranged on the upper part of the inner surface of the waterproof door; the fixing position of the connecting terminal is far away from the hinge point of the waterproof door and the side wall; two ends of the rotating rod are respectively and horizontally hinged to the bottom of the sliding terminal and the connecting terminal; the rotating rod is horizontally arranged;
the fourth wall is proximate to a hinge point of the bulkhead door and the sidewall; the hydraulic telescopic rod is arranged between the sliding terminal and the inner surface of the fourth wall; the hydraulic telescopic rod is horizontally arranged, and the telescopic direction of the hydraulic telescopic rod is parallel to the first wall.
Preferably, the lower edge of the inlet and the lower edge of the outlet are kept at a preset distance from the partition plate; the automatic door opening assembly is also arranged below the lower edge of the access opening.
Preferably, the power distribution room further comprises a processor, a hydraulic telescopic rod controller and an access control device; the entrance guard device and the hydraulic telescopic rod controller are connected with the processor.
Preferably, the height of the interlayer space is set to be 10-20 cm.
Compared with the prior art, the invention at least has the following beneficial effects:
through the technical scheme, the unattended intelligent power distribution room provided by the invention is provided with the waterproof door and the drainage assembly, so that the sealing and waterproof performance of the unattended intelligent power distribution room can be greatly improved, and accumulated water permeating into the power distribution room can be drained in time; the response capability of the existing unattended power distribution room to sudden rainstorm weather is greatly improved; the rainwater is prevented from rapidly invading the power distribution room, so that the power failure accident is caused.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.
In addition, the descriptions related to "first", "second", etc. in the present invention are only for descriptive purposes and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.
In the present invention, unless otherwise expressly stated or limited, the terms "connected," "secured," and the like are to be construed broadly, and for example, "secured" may be a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.
In addition, the technical solutions in the embodiments of the present invention may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination of technical solutions should not be considered to exist, and is not within the protection scope of the present invention.
The invention provides an unattended intelligent power distribution room.
Referring to fig. 1 to 8, an unattended intelligent distribution room includes a distribution room main body 100, the distribution room including a sidewall 110; the distribution room further includes a waterproof door 210 and an entrance 111 opened on the side wall 110.
The opening shape of the inlet 111 is rectangular, and a circle of sealing grooves are formed on the outer surface of the side wall 110 around the inlet 111; a circle of sealing protrusion is arranged around the inner surface of the waterproof door 210; when the watertight door 210 is closed, the sealing protrusion and the sealing groove are fitted into each other. Through the nested cooperation of the sealing protrusions and the sealing grooves, the sealing and waterproof performance of the whole power distribution room is greatly improved when the waterproof door 210 is closed.
The power distribution room main body 100 includes a top wall 130 and a bottom wall 120; a partition 140 parallel to the bottom wall 120 is provided inside the power distribution room main body 100; each electrical device 400 (such as a switch cabinet and a transformer) in the power distribution room main body 100 is disposed on the partition 140; the partition 140 is opened with a plurality of water collecting holes 141.
The power distribution room further comprises a drainage assembly; the drain assembly includes a drain pump 310, a drain pipe 320, and a drain trap 330; a compartment space 150 is formed between the partition 140 and the bottom wall 120; a drainage pump 310 is arranged in the interlayer space 150, and a drainage pipe 320 is communicated with the water outlet end of the drainage pump 310; the drain pipe 320 extends upwards and is hermetically arranged through the top wall 130; the drain pipe 320 positioned above the top wall 130 is communicated with a drain elbow 330; the open end of the drain trap 330 faces downward. By arranging the partition plate 140, the accumulated water invaded from the outside can be collected to the interlayer space 150 in time, so that the normal operation of the electrical equipment 400 is ensured; in addition, the drainage pump 310 can drain the accumulated water in the compartment space 150 out of the power distribution room main body 100 in time.
Through the technical scheme, the unattended intelligent power distribution room provided by the invention is provided with the waterproof door 210 and the drainage component, so that the sealing and waterproof performance of the unattended intelligent power distribution room can be greatly improved, and accumulated water permeating into the power distribution room can be drained in time; the response capability of the existing unattended power distribution room to sudden rainstorm weather is greatly improved; the rainwater is prevented from rapidly invading the power distribution room, so that the power failure accident is caused.
In addition, referring to fig. 3, the sealing groove includes a vertical sealing groove disposed vertically and a horizontal sealing groove disposed horizontally (as shown in fig. 3, fig. 3 shows a schematic horizontal cross-sectional structure of the vertical sealing groove and the vertical sealing protrusion, and since the schematic vertical cross-sectional structure of the horizontal sealing groove and the horizontal sealing protrusion is the same as that of fig. 3, but the directions are different, the schematic vertical cross-sectional structure of the horizontal sealing groove and the horizontal sealing protrusion is omitted here); the horizontal section of the notch 220 of the vertical sealing groove is triangular; the vertical section of the notch of the transverse sealing groove is also triangular; the number of the slots 220 of the vertical seal groove is set to be at least 2 (preferably 2 in the present embodiment), and the number of the slots of the lateral seal groove is set to be at least 2 (preferably 2 in the present embodiment).
The sealing protrusions comprise vertical sealing protrusions arranged vertically and transverse sealing protrusions arranged transversely; the vertical sealing protrusion includes a vertical protrusion 230 and a vertical protrusion bottom 240; the transverse sealing protrusion comprises a transverse protrusion and a transverse protrusion bottom.
The horizontal section of the vertical protrusions 230 is triangular; the vertical section of the transverse protrusion is also triangular; the number of the vertical protrusions 230 is set to be the same as the number of the slots 220 of the vertical sealing groove; the number of the lateral protrusions is set to be the same as the number of the notches of the lateral seal groove.
When watertight door 210 is closed, vertical protrusions 230 fit into slots 220 of the vertical seal groove and lateral protrusions fit into slots of the lateral seal groove.
The waterproof sealing performance when the waterproof door 210 is closed can be improved by setting the notch 220 of the vertical sealing groove, the notch of the transverse sealing groove, the vertical protrusion 230 and the transverse protrusion to be triangular; therefore, the capability of the unattended power distribution room for responding to sudden rainstorm weather is improved.
Further, the vertically protruding bottom 240 and the laterally protruding bottom are fixed to the waterproof door 210 by screws (not shown); the screw fixation is more secure.
Further, as shown in FIG. 4, in another embodiment of the present invention; the horizontal section of the notch 220 of the vertical sealing groove is semicircular; the vertical section of the notch of the transverse sealing groove is semicircular; the horizontal section of the notch 220 of the vertical sealing groove is semicircular; the vertical section of the notch of the transverse sealing groove is semicircular.
The notch 220 of the vertical sealing groove, the notch of the transverse sealing groove, the vertical protrusion 230 and the transverse protrusion are all arranged in a semicircular shape, and compared with a triangular shape, the semicircular shape provides another implementation mode, and the waterproof sealing performance of the waterproof door 210 when closed can also be improved; therefore, the capability of the unattended power distribution room for responding to sudden rainstorm weather is improved.
In addition, the sealing protrusion is made of rubber. By arranging the sealing protrusion made of rubber, when the waterproof door 210 is closed, the sealing protrusion is in a compressed state, so that the waterproof sealing performance of the waterproof door 210 when closed can be further improved; therefore, the capability of the unattended power distribution room for responding to sudden rainstorm weather is improved. Meanwhile, as shown in fig. 1, 7 and 8; the power distribution room further includes a plurality of fastening assemblies 600; the fastening assembly 600 includes a rotating fastener and a rotating terminal 610; the rotary fastener comprises a rotary main rod 620 and a rotary auxiliary rod 640; the rotating main rod 620 is perpendicular to the rotating auxiliary rod 640; the tail end of the auxiliary rotating rod 640 is provided with a spherical protrusion 660; the end 630 of the rotating main rod is provided with an anti-slip rubber sleeve 650.
A plurality of rotating terminals 610 are fixedly connected to the outer surface of the sidewall 110 near the vertical edge of the access opening 111; the rotary fasteners and the rotary terminals 610 are arranged in one-to-one correspondence; the rotating main rod 620 of each rotating fastener is hinged with the corresponding rotating terminal 610.
The outer surface of the waterproof door 210 is provided with a plurality of spherical grooves (not shown); the spherical protrusions 660 and the spherical grooves are arranged in a one-to-one correspondence manner; as shown in fig. 1, when the rotating main lever 620 rotates to be perpendicular to the side wall 110, the rotating sub lever 640 is fitted to the outer surface of the waterproof door 210 and the knob 660 is fitted into the corresponding knob groove.
Through setting up fastening components 600 for when waterproof door 210 closed, waterproof door 210 and lateral wall 110 laminating are compacter, and then promote the waterproof leakproofness of joining in marriage electrical room.
In addition, as shown in fig. 2, 5 and 6, the power distribution room further includes an automatic door opening assembly 500; the automatic door opening assembly 500 includes a fixing box 510, a sliding terminal 560, a rotating lever 570, a connecting terminal 580, and a hydraulic telescopic rod 590.
The fixing box 510 is a cuboid with a hollow interior, and the bottom surface of the fixing box 510 is open; the fixing box 510 is fixedly coupled to the inner surface of the sidewall 110 near the top of the doorway 111.
The retaining box 510 includes oppositely disposed first and second walls 520, 530 and oppositely disposed third and fourth walls 540, 550; the first wall 520 and the second wall 530 are both parallel to the side wall 110; a first sliding groove 521 is horizontally formed in the inner wall of the first wall 520, and a second sliding groove 531 is horizontally formed in the inner wall of the second wall 530.
The slide terminal 560 includes 2 slide protrusions 561; the 2 sliding protrusions 561 are respectively fitted into the first sliding groove 521 and the second sliding groove 531 so that the sliding terminal 560 can slide in the extending direction of the first sliding groove 521; the bottom of the slide terminal 560 protrudes from the stationary box 510.
The connection terminal 580 is fixedly disposed near an upper portion of an inner surface of the waterproof door 210; the fixing position of the connection terminal 580 is far from the hinge point of the waterproof door 210 and the sidewall 110; both ends of the rotation lever 570 are horizontally hinged to the bottom of the slide terminal 560 and the connection terminal 580, respectively; the rotation lever 570 is horizontally disposed.
The fourth wall 550 is close to the hinge point of the watertight door 210 and the side wall 110; a hydraulic telescopic rod 590 is arranged between the sliding terminal 560 and the inner surface of the fourth wall 550; the hydraulic telescopic rod 590 is horizontally disposed, and the telescopic direction of the hydraulic telescopic rod 590 is parallel to the first wall 520.
Because of the relatively heavy (metal material) of the quality of the waterproof door 210, through setting up the automatic assembly 500 that opens the door, can save the required strength of opening the door greatly, make things convenient for maintainer switching waterproof door 210.
In addition, the lower edge of the doorway 111 maintains a predetermined distance from the partition 140 (another automatic door opening assembly 500 may be disposed below the lower edge of the doorway 111 by setting the predetermined distance, which is preferably 20cm in this embodiment); an automatic door opening assembly 500 is also provided below the lower edge of the doorway 111. The automatic door opening assembly 500 is additionally arranged, so that the door opening is more labor-saving.
In addition, the power distribution room further includes a processor (not shown), a hydraulic telescopic rod controller (not shown), and a door control device (not shown); the access control device and the hydraulic telescopic rod controller are both connected with the processor.
The entrance guard device and the hydraulic telescopic rod controller are controlled in a linkage manner, and the entrance guard device can be any one of a fingerprint entrance guard device, a card swiping entrance guard device or a password entrance guard device; when the entrance guard passes the verification, the processor sends a door opening signal to the hydraulic telescopic rod controller, and the hydraulic telescopic rod controller controls the hydraulic telescopic rod 590 to extend, so that the waterproof door 210 is opened; when the door access verification fails, the processor sends a door closing maintaining signal to the hydraulic telescopic rod controller, and the hydraulic telescopic rod controller controls the hydraulic telescopic rod 590 to keep a shortened state (i.e., a corresponding state when the waterproof door 210 is closed). Therefore, lawless persons can be prevented from entering the power distribution room, and the safety of the power distribution room is kept.
In addition, the height of the interlayer space 150 is set to be 10-20 cm, and in order to balance the whole volume of the power distribution room and the volume of the interlayer space 150, the height of the interlayer space 150 is set to be a proper height (20 cm is preferred in the embodiment).
The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.